- Images of me356 LENR reactor fuel
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- *For public discussion (from me356):*
In the attachment I have shared some photos. Here you can see direct
evidence of reactions that are occurring even outside the
reactor. Even on
the carbon adhesive tape of the sample holder for SEM.
The sample was taken from device that we are using for fuel
preparation. This device can produce active fuel from any
Regarding my interpretation of the pictures:
The carbon adhesive tape of the sample holder for SEM is the black
surface seen in the micrographs. The fuel is the microparticles of metal
that the tape is supporting. There is an unseen LENR reaction agent that is
too small to see in the micrographs. I beleive that this agent is metallic
hydrogen since only hydrogen is present with the transition metal. But
these agents might be metallic hydrogen nanoparticles. The crystalline like
fractal patterns seen on the tape surface and on the metal microparticles
are the LENR reaction trails produced by the metallic hydrogen as it
converts matter into energy.
Very little heat is produced by the LENR reaction because the tape is
not destroyed by the reaction. The energy from the reaction is stored in
the structure of the metallic hydrogen as it moves along the surface of the
tape and the metal.
The LENR reaction is minimal at this quiescent stage but it can continue
for weeks at this low level. During this stage, the metallic hydrogen is
self sustaining. When the fuel is activated by a high potential EMF field
the LENR reaction produced by the metallic hydrogen increases
exponentially. At his stage, the heat output is generated through an
enhanced LENR reaction. A positive feedback mode is established as heat
production increases the heat output. This is self sustain mode.
The metallic hydrogen when not activated produces a low intensity
magnetic field that catalyzes the conversion of matter into energy. When
the metallic hydrogen is activated, its magnetic potential increases
greatly and the energy produced is substantial.
When the activation signal is removed, the metallic hydrogen returns to
low level activity and has a long shelf life. High intensity LENR heat
production can begin when the activation signal is reapplied.
According to Rossi, the activation signal is a electrostatic field
between 50 and 100 kilovolts.
In the two grass like micrographs sprouting out of the metal substrate,
IMHO, me356 shows the metallic hydrogen nanowire in electron micrographs
emerging out of the crack in the transition metal substrate. The metal
substrate is raised and busted up by the pressure involved in the
production of metallic hydrogen.
Metallic hydrogen is produced by high pressure processes such as
formation in nano-pits and cracks as per high palladium loading or
cavitation bubble formation as metallic water. but once formed, the
metallic hydrogen/water(as in ECCO) is self sustaining and act like free
I beleive that this low level metallic water reaction is what eventually
distroys the plastic bottle holding ECCO fuel through a slow low intensity
erosion process. The metal substrate becomes the storage mechanism that
transports the metallic hydrogen into the LENR reactor for activation by
the EMF signal.
In the above reference, Keith Fredericks has shown how the tracks form as
seen in the me356 micrographs. The tracks are produced by a tumbling
monopole particle as explained in the reference. see figure 13 of the
reference and others going forward.
The metallic hydrogen acts like a analog tachyon monopole particle since
the wave function of the metallic hydrogen is vortex like.